Understanding the basic principles in performing calculations on the optimization of production operations of oil wells, gas and geothermal reservoir, the implementation of production optimization is to enhance the performance of the well and field production (Enhanced Oil Recovery)..

Conduct simple diagnosis and understand the problem solving in the oil gas well operation.

Be able to create a simple analysis of the data of oil wells, gas and geothermal. Forecasting performance and plan the development of production operations

Be able to conduct simple quantitative calculations from all the data acquisition, tubing, flowline, choke, perforated, gravel-packs, and subsurface safety valve in the well. Plan the development of production based on the calculation of the production capacity of each well

Using the knowledge of production operations for solving well problems, such as: cementing, scaling, sand, corrosion and formation damage that may occur in oil and gas wells.

Understand the basic principles of production operation’s design: cementing, workover, well stimulation with acidizing and hydraulic fracturing, and others

AUDIENCE:

No specified (Engineer or Non Engineer)

MATERIAL OUTLINE PETROLEUM OPERATION MANAGEMENT :

The origin of Oil and Gas Reservoir and Geologic Considerations in producing Operation

a. Introduction

b. Sandstone Reservoirs

c. Geologic Factors Affecting Reservoir Properties in Sandstone

d. Application of Geologic concepts in Specific Sandstone

e. Carbonate Reservoirs

f. Application of Geologic Concepts in Carbonate Reservoirs

Exploration Method of Oil and Gas Reservoir

a. Magnetic Method

b. Gravity Method

c. Seismic Method

Introduction : Rotary Drilling Operations

a. Steps to drilling a well

b. Types of rigs

c. Rig Components

d. Rig Systems

Mud System

a. General Equations and ConceptsDiagnostic tests

b. Water based muds

c. Oil based muds

d. Additives

e. Mud handling system

Cementing

a. Tubing DesignFunctions of cement

b. Cement Types

c. Cement Additives

Oil Field Tubulars and Hydraulics

a. Drill string

b. Casing and tubing

c. Casing classification

d. Stresses on casing

e. Casing setting depth

f. Burst and collapse calculations

g. Wellheads

Drilling System – Pressure Loss Calculations

a. Hydrostatics

b. Buoyancy

c. Flow through pipes and annuli

d. Flow path

e. Pressure loss calculations

Drilling System – Bit & Nozzles

a. Hydrostatics Bit Types

b. Bit Parts

c. Bit Classification

d. Bit Nozzles

Introduction to Well Control

a. Hydrostatics Definitions

b. Causes of kicks

c. Kick indicators

d. Shut-in procedure

e. Well Kill Procedures

Directional Drilling

a. Reasons for directional wells

b. Planning Trajectory

c. Kickoff Methods

d. Survey Methods

e. Survey Calculations

f. Hole Assemblies

Well Completion Design

a. Factors Influencing Well Completion Design

b. Conventional Tubular Configuration

c. Unconventional Tubular Configurations

d. Sizing Production Tubular

e. Completion Interval

f. Permanent Well Completions (PWC)

g. Tubingless Completion

Perforating Oil and Gas Wells

a. Introduction

b. Types of Perforators

c. Evaluation of Perforator Performance

d. Factors Affecting Gun Perforating Results

e. Perforating in a Clean Fluid with Differential Pressure Into Wellbore

For the time being, he became a lecturer in Petroleum Engineering Department of Bandung Institute of Technology. His subjects are Analysis and Numerical Method, Engineering Mathematics, Computer Simulation, Fluid Mechanic, Artificial Intelligence for Petroleum Engineering.

He also gave many courses to the community, such as: basic reservoir engineering and reservoir simulation, basic production engineering, down hole well testing, statistic and numerical method for petroleum engineering, basic log interpretation, etc. He is a member of some profession organization such as: IATMI, SPE/EIME, IMA, HAIAI, FPS-USA.